Touch input device and touch detecting method

1. A touch input device, comprising: a planar location sensing board sensing a first electrical variation of different locations in the directions parallel to the planar location sensing board due to an object approaching or touching the planar location sensing board; a depth sensing layer disposed below the planar location sensing board and separated by a distance from the planar location sensing board, the depth sensing layer sensing a second electrical variation corresponding to a degree in which the object presses the planar location sensing board; a first interpretation unit electrically connected to the planar location sensing board, the first interpretation unit determining a location in the directions parallel to the planar location sensing board which the object approaches or touches the planar location sensing board according to the first electrical variation, and generating a corresponding first signal; a second interpretation unit electrically connected to the depth sensing layer, the second interpretation unit determining the degree the object presses the planar location sensing board according to the second electrical variation, and generating a corresponding second signal; and a processing unit determining a three-dimensional touch location of the object according to the first signal and the second signal.

2. The touch input device according to claim 1 , wherein the first electrical variation is a capacitance variation, and the second electrical variation is an electric field variation or a capacitance variation.

3. The touch input device according to claim 2 , wherein the planar location sensing board comprises a plurality of cantilever portions and a plurality of first electrode pads disposed on the cantilever portions, and the depth sensing layer comprising a plurality of second electrode pads corresponding to the first electrode pads; wherein the first electrode pads sense the first electrical variation due to the object approaching or touching the planar location sensing board, and the second electrode pads sense the second electrical variation due to the object pressing the cantilever portion on the planar location sensing board and between the pressed cantilever portion and the corresponding first electrode pad.

4. A touch detecting method, comprising: sensing a first electrical variation of different locations in the directions parallel to a reference plane due to an object approaching or touching the reference plane; sensing a second electrical variation due to the object pressing the reference plane; according to the first electrical variation, determining a location in the directions parallel to the reference plane due to the object approaching or touching the reference plane; according to the second electrical variation, determining a degree of the object pressing the reference plane; and according to the location of the object in the directions parallel to the reference plane due to the object approaching or touching the reference plane, and the degree of the object pressing the reference plane, determining a three-dimensional touch location of the object.

5. The touch detecting method according to claim 4 , wherein the first electrical variation is a capacitance variation, and the second electrical variation is an electric field variation or a capacitance variation.

6. The touch detecting method according to claim 4 , further comprising using a carrying board to form the reference plane, the carrying board comprising a plurality of cantilever portions and a plurality of connecting portions connecting the cantilever portions, at least one electrode pad being respectively disposed on the cantilever portions, wherein when the object presses the reference plane, the pressed cantilever portion correspondingly deforms so that a variation is generated on the location of the first electrode pad on the pressed cantilever portion.

7. The touch detecting method according to claim 6 , wherein the step of sensing the second electrical variation due to the object pressing the reference plane comprises: correspondingly disposing at least one second electrode pad below the first electrode pads respectively; and sensing an electrical variation of the at least one second electrode pad, wherein when the first electrode pad disposed on the cantilever portion approaches the corresponding second electrode pad due to the object pressing the reference plane, an electrical property of the second electrode pad changes.